Post on 23-Feb-2016
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Solar System HistoryCh 9
Big Bang TheorySolar NebulaPlanetesimalsTerrestrial PlanetsSpace missions
Which is the correct sequence? (Oldest to
youngest)
1. J-K-F-G-H-B2. J-K-F-H-B-G-E-
D3. I-J-K-F-H-B-G4. J-K-F-D-I
Big Bang Hypothesis
13-14 billion years ago, all matter and energy was concentrated into a single, inconceivably small (and very dense) point. This hypothesis stems from a mathematical solution to the problem
This hypothesis was tested through the Doppler shift in stellar spectrum, which implied that matter was flying apart in all directions throughout the universe
The Hubble Telescope
Can detect faint light that has travelled for billions of years…from the start of the current universe
Pretty Pictures
http://hubble.nasa.gov/hubble20th_lg.jpg
http://hubblesite.org/newscenter/archive/releases/2005/2005/35/image/a/format/web/
Earth Based Telescopes
Earth Based Telescopes
Nebular Hypothesis and the origin of our Solar system
• Solar system is older than 4.56 billion years
• Gravity is the cause of “condensation” of the cloud
• Cloud contracted WHILE spinning ever faster
• H and He are the most common elements
• H and He collected to form fusion reactions
Nebular Hypothesis and the origin of our Solar system
• Fusion is more energetic than atomic fission, but requires greater pressures
• Hydrogen “fuel” burns to create He
Nebular Hypothesis and the origin of our Solar system
• Planetesimals (early-stage, immature, small planets) on the periphery of this contracting, spinning dust cloud began to clump together locally.
• Denser materials fell closer to the sun• Less dense materials (gases) could
escape to greater distances from the sun e.g. Jupiter
Fig. 1.3
Small Bodies of the Solar System
• Asteroids: > 300 in the asteroid belt 100 km in size
• Meteorites: objects which strike the Earth
• Comets: masses of ice, dust
Hale Bopp Comet
http://www2.jpl.nasa.gov/comet/gif/dru61.jpg
Nebular Hypothesis and the origin of our Solar system
• Mercury, Venus, Earth, Mars are the terrestrial planets• Rocky, with iron core• Also referred to as the inner planets
• Jupiter, Saturn, and Neptune are the gaseous planets• Have a rocky core• Also referred to as the outer planets
Size of the Planets
Fig. 9.3
Mercury• Similar
topography to the moon
• Unlike the moon, Mercury has cliffs
• Not tectonically active
• No atmospherehttp://solarsystem.nasa.gov/planets/profile.cfm?Object=Mercury
Venus• Thought to
have volcanism
• Different convection cells different plates
• Thick atm. Causes a runaway greenhouse
http://solarsystem.nasa.gov/planets/profile.cfm?Object=Venus
Moon formation• Planetesimal
the size of Mars collided with Early Earth
• Formed during the “heavy bombardment” period
http://starchild.gsfc.nasa.gov/docs/StarChild/questions/question38.html
Mars• Red due to iron
oxides• Similar surface
features and density
• Olympus Mons• No global
magnetic fieldhttp://solarsystem.nasa.gov/planets/profile.cfm?Object=Mars
• http://solarsystem.nasa.gov/docs/MOLA-Mars%20Water_map_wblack.jpg
• Blue areas are frozen water
Gas Giants
• Jupiter, Saturn, and Neptune– Typically lots of moons– Mostly gas
• Hydrogen and helium– Cold
• Galileo satellite http://solarsystem.nasa.gov/planets/profile.cfm?Object=Jupiter
Size and Relief of Venus, Earth, Mars
Fig. 9.7
Moon topography (FROM http://www.ep.sci.hokudai.ac.jp/~mosir/work/2002/kamokata/lect
ure/moon/moon_html/moon_exploer/images/Topography.jpg
http://www.google.com/imgres?imgurl=http://news.nationalgeographic.com/news/2005/03/images/050310_meteorcrater2.jpg&imgrefurl=http://news.nationalgeographic.com/news/2005/03/0310_050310_meteorcrater.html&h=566&w=461&sz=33&tbnid=M8g4ulBrF9JNyM:&tbnh=249&tbnw=203&prev=/images%3Fq%3Dmeteor%2Bcrater%2Bpictures&zoom=1&q=meteor+crater+pictures&usg=__pVBzhHolZMHgV58SI0li4_uEiqs=&sa=X&ei=h3k7TdrDL5DpgAfco4SqCA&ved=0CBsQ9QEwAg
Differentiation
• Transformation of random chunks of primordial matter into a body whose interior is divided into concentric layers
• Reason why the Earth has a core, crust and mantle
Differentiation
Atmosphere Evolution• Sources of water
– Bolides– Water rich minerals
• Oxygen evolution– Chapter 11
Evolution of the Atmosphere
• 6H2O + 6CO2 C6H12O6 + 6O2– Produce oxygen from a carbon dioxide
rich environment by photosynthesis• Two notable periods of O2 rise
– Around 2.4 and 0.8 billion years ago
How old is the Earth?
How old is the Earth?
Younger than the planetesimals 4.56 by
How old is the Moon?Oldest moon rocks are 4.47 billion years …the moon started to form around…4.5 billions years agoMoon is dominated by:
Lunar highlandsLots of craters
Lunar mariaFew craters
What was happening between 4.56 and 4.5 by ?
• (1) Accretion to create the first earth… a “magma” earth (100 million-year-period
• Earth was hit by a giant bolide (before 4.47 by) that re-melted it and led to the formation of the moon (see earlier slide)
What happened to the Earth at 4.5 by ?
• Mainly cooling and differentiation• Gravity pulled the denser materials toward the core when the Earth was still molten
What was happening between 4.5 and 4.4 by ?
Rock/mineral Ages
• Australia has 4.4 billion year old zircons
• Central continental regions have old rocks– Roughly 4.0 billion years old
• Canadian shield, Australia, and Africa
Mars Rovers• Launched 1997, landed 2004• Spirit
– Gusev Crater (160 km)• Thought to be a previous lake• Also studied a volcanic plain
• Opportunity– Meridiana Planum
• Large amount of hematite– Studied first sedimentary rock on
another planet
Mars Rovers
http://marsrovers.nasa.gov/home/
http://marsrovers.nasa.gov/gallery/press/opportunity/20110120a/SolsB2453-54_Pancam_L257_atc_br.jpg
Cassini Mission to Saturn
• Cassini-Huygens mission– Launched Oct. 1997– Dec. 2004 Huygens lander released– Jan. 2005 Huygens reached titan
• Titan has its own atmosphere
Titan Pictures
http://esamultimedia.esa.int/images/Science/CONFERENCE/Huygens/Lebreton_Huy_descent_seq_H.jpg
http://www.esa.int/esa-mmg/mmg.pl?b=b&type=I&mission=Cassini-Huygens&single=y&start=90&size=b
http://www.esa.int/esa-mmg/mmg.pl?b=b&type=I&mission=Cassini-Huygens&single=y&start=45&size=b